E. A. Nunez scite author profile

E. A. Nunez

5Publications

55Citation Statements Received

29Citation Statements Given

How they've been cited

141

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Affiliations

Spanish National Centre for Cardiovascular Research

Publications

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Regulation of rat thyroxine-binding globulin and transthyretin: studies in thyroidectomized and hypophysectomized rats given tri-iodothyronine or/and growth hormone

Vranckx

Rouaze-Romet²,

Savu³

et al. 1994

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We have investigated the role of the thyroid compared with the hypophysis in the regulation of the two saturable thyroid hormone carriers of rat serum, thyroxine-binding globulin (TBG) and transthyretin (TTR). We examined, at serum and hepatic mRNA level, the responses of TBG and TTR to thyroidectomy (Tx), hypophysectomy (Hx) and replacement treatments with tri-iodothyronine (T3) or/and GH, both hormones which are depleted when the thyroid or hypophysis are removed. The studies were performed on male rats at the age of 8 weeks, when the developmentally regulated TBG becomes undetectable after its transient postnatal rise, while the nondevelopmentally regulated TTR presents its normal, age-independent level of expression. Tx-induced TBG re-expression was completely reversed by T3 replacement and unresponsive to GH replacement. TTR in the serum, on the other hand, was not affected by Tx or T3 replacement, moderately reduced by Tx in terms of the amount of mRNA, and markedly reduced by GH replacement. GH treatment, moreover, inhibited the expression of TTR in euthyroid controls. Hx, like Tx, induced TBG re-expression, an effect efficiently antagonized by T3 replacement. However, TBG synthesis was higher in Hx than in Tx rats and less effectively antagonized by T3 replacement. Most unexpectedly, GH induced a dramatic further increase in TBG synthesis, and the TBG synthesized in the GH-replaced Hx rats was entirely resistant to down-regulation by T3 replacement. TTR was markedly decreased at both serum and hepatic levels by Hx, unaffected by T3 and further decreased by GH replacement.(ABSTRACT TRUNCATED AT 250 WORDS)

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Developmental patterns of levels of corticosterone and of corticosterone binding in the serum of female rats: effects of ovariectomy and adrenalectomy

Vallette¹,

Delorme²,

Benassayag³

et al. 1982

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Abstract. Corticosterone concentrations and corticosterone binding in the serum were studied in immature female rats, using radioimmunoassay and batchwise gel equilibration techniques. A parallel developmental pattern was found for corticosterone levels and its serum binding with a neonatal drop, followed by low levels until 12 days of age and a rise between 12 and 28 days of age. Effects of adrenalectomy, of ovariectomy, of the combined operation and of sham-operations, performed at various ages, were also studied. Adrenalectomy performed at 5 days of age did not decrease serum corticosterone concentrations within a 6-day period whereas it did in older rats. Complete disappearance of corticosterone from the blood occurred only in adult rats after combined adrenalectomy/ovariectomy. Ovariectomy and sham-operations in the younger age groups (5–15 days) caused a gradual increase in corticosterone concentration with maximal values 6 days after operation or later. The response of corticosterone secretion to these operations became more moderate and quicker, i.e. more adult-like, at 28 days of age, the age where corticosterone concentrations in intact rats also seemed to reach a plateau at an adult-like level. Corticosterone binding changed only marginally after ovariectomy or sham-operations until 28 days of age, when an increase was induced by these operations. After adrenalectomy or combined adrenalectomy/ovariectomy, however, marked increases in serum binding of corticosterone were always seen. In summary: though a parallel developmental pattern of serum corticosterone levels and corticosterone binding was seen in the maturing rat, interference with the normal condition causes divergent responses in these two parameters. Moreover, the responses vary with maturational age.

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Re-expression of thyroxine-binding globulin in post-weaning rats during protein or energy malnutrition

Rouaze-Romet

Savu²,

Vranckx³

et al. 1992

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Thyroxine-binding globulin, the highest affinity thyroid hormone binder of rat serum, was studied during 28 days of dietary protein restriction (6% protein vs 18% protein in isocaloric control diet) or energy restriction (60% intake of control diet). Studies were performed on male rats aged four weeks at the beginning of experiments: the animals had reached the ontogenic stage when the thyroxine\x=req-\ binding globulin had declined, after its high postnatal surge, to undetectable levels. Short-term administration (seven days) of one or the other restricted diet similarly induced resynthesis of the protein. Its serum concentrations reached 26\p=n-\46% of those measured in eight-day pups (peak of the neonatal surge) and its liver mRNAs showed corresponding enhanced signals. Serum T4 binding activities were increased, although concomitantly transthyretin, second specific T4 carrier of the rat serum, decreased markedly (65\p=n-\75% of controls) in response to the dietary restrictions. Longer-term diet administration (14 or 28 days) resulted in the further increase of the thyroxine-binding globulin in the protein-restricted rats, in contrast to its decline and eventual disappearance in the energy-restricted animals. Protein restriction was associated with increased total and free T3 serum concentrations, in contrast to energy restriction which little affected these parameters. These studies reveal rat thyroxine\x=req-\ binding globulin as a positive (increasing), highly sensitive reactant of malnutrition, able to discriminate between energy deficiency and composition dysequilibrium of diets. They suggest that up\ x=r eq-\ regulation of its synthesis in the two dietary models involves differential mechanisms.

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Corticosterone binding globulin: an acute phase “negative” protein in the rat

Savu¹,

Lombart²,

Nunez³

1980

FEBS Letters

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High Affinity Testosterone, Corticosterone and Progesterone Binding Activities in Pregnant Hamster Serum

Savu¹,

Nunez²,

Jayle³

1977

Endocrinology

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E. A. Nunez

Regulation of rat thyroxine-binding globulin and transthyretin: studies in thyroidectomized and hypophysectomized rats given tri-iodothyronine or/and growth hormone

Developmental patterns of levels of corticosterone and of corticosterone binding in the serum of female rats: effects of ovariectomy and adrenalectomy

Re-expression of thyroxine-binding globulin in post-weaning rats during protein or energy malnutrition

Corticosterone binding globulin: an acute phase “negative” protein in the rat

High Affinity Testosterone, Corticosterone and Progesterone Binding Activities in Pregnant Hamster Serum

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